The QAccelerometerReading class reports on linear acceleration along the X, Y and Z axes. More...
Header: | #include <QAccelerometerReading> |
CMake: | find_package(Qt6 COMPONENTS Sensors REQUIRED) target_link_libraries(mytarget PRIVATE Qt6::Sensors) |
qmake: | QT += sensors |
Since: | Qt 5.1 |
Inherits: | QSensorReading |
void | setX(qreal x) |
void | setY(qreal y) |
void | setZ(qreal z) |
qreal | x() const |
qreal | y() const |
qreal | z() const |
The scale of the values is meters per second squared. The axes are arranged as follows.
A monoblock device sitting at rest, face up on a desk will experience a force of approximately 9.8 on the Z axis (ie. towards the roof). This is the proper acceleration the device experiences relative to freefall.
[read-only]
x : const qreal
This property holds the acceleration on the X axis.
The scale of the values is meters per second squared.
Access functions:
qreal | x() const |
See also QAccelerometerReading Units.
[read-only]
y : const qreal
This property holds the acceleration on the Y axis.
The scale of the values is meters per second squared.
Access functions:
qreal | y() const |
See also QAccelerometerReading Units.
[read-only]
z : const qreal
This property holds the acceleration on the Z axis.
The scale of the values is meters per second squared.
Access functions:
qreal | z() const |
See also QAccelerometerReading Units.
Sets the acceleration on the X axis to x.
See also x().
Sets the acceleration on the Y axis to y.
See also y().
Sets the acceleration on the Z axis to z.
See also z().
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Licensed under the GNU Free Documentation License, Version 1.3.
https://doc.qt.io/qt-6.2/qaccelerometerreading.html